That's twice the size of an average comet nucleus, although some historic comets have been much larger. Even so, Halley's comet which has been
estimated to be 15 × 8 × 8 km has put on spectacular shows during previous perihelions (of course various factors including size of nucleus play a
part).

Size

Most cometary nuclei are thought to be no more than about 10 miles (16 kilometers) across.[2] The largest comets that have come inside the orbit of
Saturn are Hale–Bopp (~60 km), 29P (~30.8 km), 109P/Swift–Tuttle (~26 km), and 28P/Neujmin (~21.4 km).

Those are hot pixels. They do not form a point-spread function the way an actual point-like light source (be it a star, asteroid, satellite,
spaceship or whatever) would. There is an asteroid in the image as well which was not labeled in your video, and it does form a point spread function
as you can see in this cropped closeup: i319.photobucket.com...
Based on some astrometry I ran on his image I identified it as asteroid 2002 TY164, which was the closest asteroid to the comet in the sky that
evening (not physically close though - the asteroid was about 3 times closer to earth than the comet but was itself still farther from us than the
sun).

In English, please? There is an asteroid in the image, but it's not one of the hot pixels you labeled (the movement of which is due to the
telescope's tracking error over time - Pete Lawrence himself can confirm this). The asteroid shows a point spread function, the hot pixels do not.

Look at the vid above. On December 26, 2013, the closest pass of Comet ISON from Earth seem to be less than 0.2 AUs away, and that contradicts what
Wikipedia stated here, on this page:en.wikipedia.org...

"On closest approach, the comet will pass about 0.072 AU (10,800,000 km; 6,700,000 mi) from Mars on 1 October 2013, and it will pass about 0.42 AU
(63,000,000 km; 39,000,000 mi) from Earth on 26 December 2013."

Watching the video above, you can say on 26 Dec 2013, Comet ISON is so far away from even half the distance between Earth and the Sun, so how can it
be 0.42 AUs or close to half the distance from Earth to the Sun?

Neither 11/9 nor I "Son" is just a comet, not with the events since last September, the Rosh Hashanah, the lineups of Virgin/Virgo, giving birth to
the planets, the Venus Transit, the events in Aurora Colorado, blackjack 21, and now, this new comet, I "SON".

This entire process is about NWO, the new age of aquarius and their new religion/sungod. And they always close down the old.

They don't like taking the blame for murder and always rewrite history, sometimes cosmic events help them out.

I guess this time, its not going to be a big cosmic event, or they wouldn't have done BP, FUKUSHIMA, all the GMO, and all the terrible murders that
Murder Incorporated do all the time.

So this isn't just a comet, unless you can't stand putting on your thinking cap. And noticing all the things going on and researching the Egyptian
Gnostic Religion they seem to follow. And that astrology as well.

Could you imagine living in a realm where a University Science Lab actually studies whether our sun could have come from the Cancer Constellation that
the myths of old say. This wouldn't have happened unless some really powerful people believed those myths.

A small but incredibly bright comet heading toward the sun could do more than dazzle Earth’s skies when it arrives later this year. Scientists say
Comet ISON, already shedding dust at the prodigious rate of about 112,000 pounds per minute, could spark an unusual meteor shower.

The comet will be closest to earths orbit and cross our orbital plane from above on or around November 2nd this year and earth will be near that same
position on or about January 12, 2014.

Computer simulations predicting the location and movement of the comet’s dust trail show Earth will be passing through the fine-grained stream
around Jan. 12, 2014.

“As the comet passes Earth’s orbit going into the sun, you’ll have particles trailing behind it. But since it’s passing so close to the sun,
you’re also going to have particles pushed away by the pressure of the sunlight. That means we’ll have particles coming outward and also falling
inward.

We don’t often deal with particles that come both directions,” said Bill Cooke, lead scientist at NASA's Meteoroid Environment Office at the
Marshall Space Flight Center in Huntsville, Ala. The particles are so small that even though they will hit the atmosphere at about 125,000 mph,
instead of burning up, triggering so-called “shooting stars,” they will be stopped entirely, predicts astronomer Paul Wiegert, with the University
of Western Ontario in Canada.

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